Quantum phase transitions in two-dimensional superconductors: a review on recent experimental progress

TL;DR

This review summarizes recent experimental advances in understanding quantum phase transitions in 2D superconductors, highlighting phenomena like quantum Griffiths singularity and anomalous metal states driven by disorder and quantum fluctuations.

Contribution

It provides a comprehensive overview of new experimental findings on quantum phase transitions in 2D superconductors, emphasizing the universality of QGS and the existence of metallic ground states.

Findings

Quantum Griffiths singularity observed in ultrathin crystalline Ga films.

Charge-2e quantum oscillations indicate bosonic metallic states.

Evidence of anomalous metal states in various 2D superconducting systems.

Abstract

Superconductor-insulator/metal transition (SIT/SMT) as a paradigm of quantum phase transition has been a research highlight over the last three decades. Benefit from recent developments in the fabrication and measurements of 2D superconducting films and nanodevices, unprecedented quantum phenomena have been revealed in the quantum phase transitions of 2D superconductors. In this review, we introduce the recent progress on quantum phase transitions in 2D superconductors, focusing on the quantum Griffiths singularity (QGS) and anomalous metal state. Characterized by a divergent critical exponent when approaching zero temperature, QGS of SMT is discovered in ultrathin crystalline Ga films and subsequently detected in various 2D superconductors. The universality of QGS indicates the profound influence of quenched disorder on quantum phase transitions. Besides, in a 2D superconducting system, whether a metallic ground state can exist is a long-sought mystery. Recently, the charge-2e quantum oscillations are observed in nanopatterned superconducting films, indicating the bosonic nature of the anomalous metal state and ending the debate on whether bosons can exist as a metal. The evidences of the anomalous metal states have also been reported in crystalline epitaxial thin films and exfoliated nanoflakes, as well as granular composite films. High quality filters are used in these works to exclude the influence of external high frequency noises in ultralow temperature measurements. The observations of QGS and metallic ground states in 2D superconductors not only reveal the prominent role of quantum fluctuations and dissipations but also provide new perspective to explore quantum phase transitions in superconducting systems.